Kinetics of the oxidative decomposition of potato-starch-g-poly(phenyl methacrylate) copolymers

The simultaneous TG-DSC-FTIR techniques were applied to study the thermo-oxidation of starch-g-poly(phenyl methacrylate) copolymers, using unmodified potato starch in order to compare the results. The study shows that the degradation of copolymers takes place in three large stages, between 150 and 600 degrees C. The main evolved volatile compounds were: H2O, CO2 and CO, in addition to a mixture of organic products. The kinetic analysis suggests that the initial degradation from all copolymers (between 245 and 250 degrees C) starts through a kinetic scheme of a reversible reaction, followed by an irreversible one, where the progressive decreasing of E(alpha) values, from similar to 200 kJ mol(-1) up to similar to 150 kJ mol(-1), reveals the auto-catalytic influence of an intermediary on the overall reaction rate. Subsequently, for alpha > 0.4 and temperatures higher than 300 degrees C, with E(alpha) values between 55 and 150 kJ mol(-1), a complex set of competitive reactions linked to the secondary degradation of the graft suggests that both, the reaction mechanism and kinetic parameters are highly dependent on the conversion. For temperatures higher than 400 degrees C and alpha > 0.7, the direct gasification of carbonaceous residues occurs in at least two different energetic stages, with significant changes in the conversion dependence of the E(alpha) values, whose magnitudes and extents are highly dependent on the copolymer samples. (C) 2015 Elsevier Ltd. All rights reserved.